DE19829277A1 - Biologically harmless flame and fungus protection agents for building materials from renewable raw materials - Google Patents

Abstract

The invention relates to a method for flameproofing insulating materials made with renewable raw materials. According to this method, the insulating material is impregnated with an aqueous impregnating solution containing 5 to 20 wt.% sodium and/or potassium carbonate as the flameproofing and fungicide agent and additionally, 2 to 10 wt.% of a tenside as a fungicide. The insulating materials are shavings of hemp, miscanthus, flax, jute and ramie and insulating matting consisting of fibres of hemp, miscanthus, flax, ramie and shorn wool.

Description

The invention relates to a method for flame and fungus protection equipment of building materials from renewable raw materials, the use of an Im Precision solution for flame and fungus protection finishing of building materials renewable raw materials as well as flame and fungus-proof insulation fabrics made from cellulose fibers.

In recent years there has been a clear trend towards an ecological orien tated construction, which is due to the increased use of wood and woodwork substances is marked to observe. This has its origin in the Raising public awareness of ecological issues and the related issues related orientation on products from renewable raw materials. From this point of view, efforts are to be seen, for example Thermal and acoustic insulation used construction textiles made of mineral fibers To replace insulation materials made from natural, renewable raw materials. As Insulating materials based on renewable raw materials are becoming an example today show the shives of the hemp plant as loose insulation in the floor richly used, which act there as impact sound and thermal insulation.

Building materials from renewable raw materials, such as wood or insulating materials the base of cellulose fibers, are the attack of microorganisms, such as Bacteria and fungi exposed. Furthermore, such materials if they used untreated, flammable and can reduce the risk of fire  increase. Treatment of such building materials with flame and fungus protection averaging is therefore essential. Stand as commercial flame retardants a variety of substances to choose from. Flame effective for wood Protective agents work, for example, by being on fire in the heat of fire give off suffocating gases or have a charring effect, which ensures good insulation layer of charcoal on which wood is formed. Examples are ammoni Umhydrogenphosphat, which releases ammonia in the heat and thereby forms dehydrating and thereby charring phosphoric acid, Mixtures of urea, dicyandiamide, melamine and organic phospha ten, also mixtures which additionally contain chlorinated paraffins, the latter supply chlorine-containing gases acting as radical scavengers. The use of such Flame retardant is not without its dangers because of the diminution of one Fire risks in the event of fire the possibility of environmental hazard faces. Toxic phosphates can be formed Halogenated compounds can burn the atmosphere form stressful or persistent residues, furthermore can burn in the presence of organic chlorine compounds the formation was high toxic dioxins cannot be excluded. Less development Environmentally hazardous flame retardants are therefore worked intensively.

Commercial fungistatics and fungicides include metal organi connections of heavy metals such as mercury or cadmium, also organic tin compounds, copper salts, chloronaphthalenes and Chlorophenols. Since these substances have an intense effect on living organisms, there is always a potential hazard for their use human health. For wood protection prescribed by the building authorities measures may therefore only be used for wood preservatives that checked by the Institut für Bautechnik and for the intended use purpose. In addition, there are no toxic substances for building materials that meet the requirements for ecological building  should do justice. In addition to their biological harmlessness the flame retardant and anti-fungal agents used changes are sufficient and may be the price of the building materials treated with them do not drive up too much.

The object of the invention is a biologically harmless flame Protective agents for the flame retardant finish of building materials send raw materials to provide that to the requirements ecological building. Another object of the invention is this in combination with a biologically harmless fungus protection agent To make available. The flame and fungus protection agents used should inexpensive, easy to process and the building materials treated with them with regard to their structural properties.

The task is solved by a process for flame protection equipment of building materials from renewable raw materials, in which the building material with an aqueous impregnation solution containing 5 to 20% by weight sodium and / or potassium carbonate as a flame retardant. All Concentration data refer to sodium or Potassium carbonate.

Building materials from renewable raw materials are, for example, wood and Wood-based materials such as wood shavings, natural fibers obtained from fiber plants (Bast fibers), such as hemp, flax, miscanthus (Chinese reed), also new wool, and construction textiles made from them, such as nonwovens, felts, fabrics and Wadding. Building materials made from renewable raw materials are also special Plant stems (natural shives), such as the shives of hemp, miscanthus, Flax, jute and ramie.  

Preferred building materials with the aqueous impregnating agent according to the invention solutions are treated, insulation materials made of cellulose fibers like that called natural shives, in particular the shives of the hemp plant, which for example as loose insulation in the floor or partition wall find rich use, as well as insulation mats made of natural fibers, such as Insulating mats, especially those made from the fibers of flax, miscanthus, Ramie and new wool.

The impregnation solutions used in the process according to the invention contain 5 to 20% by weight of sodium and / or potassium carbonate as flame retardants. The aqueous impregnation solutions preferably contain 15 to 20% by weight, particularly preferably 18 to 20% by weight, of sodium or potassium carbonate. The flame-retardant effect of sodium or potassium carbonate in the flame retardant impregnations according to the invention is presumably due to the decomposition of the carbonates in the heat of fire with the release of CO ₂ , which has a flame-retardant effect.

The invention also relates to the use of sodium or Potassium carbonate for flame retardant treatment of flammable materials, especially of building materials from renewable raw materials. object the invention is also the use of an aqueous impregnation solution, containing 5 to 20 wt .-%, preferably 15 to 20 wt .-%, particularly preferably 18 to 20 wt .-% sodium or potassium carbonate as a flame protective agent, for the flame retardant finishing of building materials the raw materials.

The impregnation solutions used in the process according to the invention can additionally contain a fungus protection agent. In principle, all antifungal agents with a fungistatic or fungicidal action which are ecologically and biologically harmless and soluble in the aqueous impregnation solution are suitable. Suitable, ecologically and building biologically harmless fungicides are tensides like soaps or synthetic detergents. In general, the aqueous impregnation solutions contain 2 to 10% by weight, preferably 5 to 10% by weight, particularly preferably 5 to 8% by weight, of a surfactant as an antifungal agent. Suitable surfactants are anionic surfactants, such as alkylbenzenesulfonates, alkanesulfonates, fatty alcohol sulfates, fatty alcohol ether sulfates, alpha-olefin sulfonates, alpha-ester sulfonates, alkyl phosphates and alkyl ether phosphates, nonionic surfactants such as fatty alcohol ethoxylates, alkyl phenol ethoxylates, fatty amine ethoxylates, fatty acid ethoxylates, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxide oxides, fatty acid ethoxylates, cationic surfactants such as quaternary ammonium salts and imidazolinium compounds, in particular alkylammonium compounds, and amphoteric surfactants such as betaines and sulfobetaines. Preferred surfactants are those with a pronounced microbial static and microbicidal action, in particular soaps such as sodium palmitate and sodium stearate, core soap, cationic surfactants such as quaternary ammonium salts, in particular those with short alkyl chains, such as dodecyl, dimethyl, benzylammonim chloride, and amphoteric surfactants, such as 7 -C ₁₀ -C ₁₆ - alkyl-3,7-diazaheptanoic acid. Very particularly preferred surfactants are 7-C ₁₀ -C ₁₆ -alkyl-3,7-diazaheptanoic acid and soap.

The effect of the surfactants as antifungal agents is probably due to the fact that the surfactants as surface-active agents are found on the cell boundary layers of the fungi and thereby the semipermeability of the cytoplasmic cells branches that consist mainly of lipids and proteins. As a result, the metabolism and thus the fungal growth on physi prevented path.

The building materials can with the aqueous impregnating solution according to the invention gene by all usual methods, for example by brushing, spraying or watering can be impregnated.  

The aqueous impregnation solutions according to the invention can be used, for example, as wood preservation paints. Such an impregnation solution used as wood preservation paint preferably contains 10 to 20% by weight sodium and / or potassium carbonate and 2 to 10% by weight surfactant. A low concentration of sodium or potassium carbonate on the wood surface is sufficient for effective flame retardant equipment. This is preferably 20 to 40 g / m ^{2 of} the wood surface. The amount of surfactant is preferably 5 to 15 g / m ^{2 of} the wood surface. The use of the aqueous impregnation solutions according to the invention as a protective coating for wood is suitable for wooden parts which do not come into contact with water. Otherwise there is a risk that the protective coatings will be washed out. Such protective coatings are therefore particularly suitable for wood protection indoors.

The aqueous impregnants used according to the invention are preferably solutions for flame retardant treatment of insulation materials such as cellulose fibers, from these manufactured random fiber insulation mats or plant shives, which as loose insulation fillings are used. Such flame retardant finished insulation materials generally contain 2 to 10% by weight, preferably 2 to 5 wt .-% sodium and / or potassium carbonate as a flame protective means. Insulating materials made from cellulose fibers that are additionally anti-fungal are prepared, generally contain 0.5 to 3% by weight, preferably 1 to 2 % By weight surfactant as antifungal agent. The insulation materials are preferred impregnated with the impregnation solution by spraying or dipping. This can, for example, by spraying the insulation in a rotary tube dryer and then drying.

The aqueous solutions used according to the invention are particularly preferred Impregnation solutions for flame and fungus protection of plants shives, especially the shives of the hemp plant. Thereby  the previously common protective layer made of bitumen cannot be used as building biology harmless substance is eliminated. By eliminating the protective layer Bitumen also becomes the thermal insulation ability of the plant shave insulation fill improved.

The flame and fungus protection agents used according to the invention are for the People not toxic. There is also no danger that the Fire from the flame retardants used by decomposing toxic Form connections that into the atmosphere or with the fire fighting water Soil can get. The antifungal agents used according to the invention are; also with regard to a later disposal of the building materials conceivably. Furthermore, the aqueous impregnating solution used according to the invention solution is an inexpensive alternative to conventional products.

The invention is illustrated by the following examples.

Examples Fire tests Examples 1 to 8

For the flame-proof impregnation of hemp shives, an aqueous soda solution saturated to the solubility limit (Na ₂ CO ₃ concentration approx. 200 g / l) was sprayed in the amounts given in table 1 (in 1 / kg hemp shives) (example 1: by immersion ) applied to the shives and then dried. The fire behavior of the shives treated in this way was examined in accordance with DIN 4102 Part 1. In order to bring the shives into a shape corresponding to DIN, they were arranged in wire baskets so that a layer with a thickness of 10 mm and the corresponding external dimensions was available in accordance with DIN . Mesh size and thickness of the wire of the wire baskets were chosen so that the possibility of fire formation was guaranteed, and were 3.15 mm and 0.55 mm. Before examinations on the empty wire basket showed an unimpeded penetration of the burner flame through the wire mesh. In all the samples examined, the flame front on the vertically suspended test specimen to be tested had not advanced by more than 150 mm after a flaming time of 15 s. A strong smoke development was only observed in samples 7 and 8. All samples thus met the requirements for a standard flammable building material according to building material class B2 according to DIN. It was also observed that the flame-retardant samples suppress a smoldering fire after the flame treatment. Untreated cockroaches showed a pronounced smoldering behavior after flame treatment, combined with a very strong smoke development.

Attempts at fungal attack Examples 1 to 13

The investigations into the antifungal effect of the flame retardants or antifungal agents used were carried out in accordance with DIN IEC 68. A mixed culture of seven different types of mushrooms with an initial concentration of 108 mushroom spores per ml suspension was applied to treated and untreated hemp shives. After a incubation period of 28 days, the mold growth was evaluated visually and divided into classes 0 to 3 according to DIN. These classes mean:
Class 0: No mold growth visible at 50x magnification.
Class 1: Mold growth is not or only with difficulty with the naked eye, but clearly visible under the magnifying glass.
Class 2: Mold growth is clearly visible to the naked eye, but covers less than 25% of the surface of the test specimen.
Class 3: Mold growth is clearly visible and covers more than 25% of the surface of the test specimen.

The results are summarized in Table 1.

Claims (10)

1. Regrowth process for flame retardant finishing of building materials the raw materials in which the building material is treated with an aqueous impregnating solution solution containing 5 to 20 wt .-% sodium and / or potassium carbonate as Flame retardant is impregnated. 2. The method according to claim 1, characterized in that the aqueous Impregnation solution additionally 2 to 10 wt .-% of a surfactant as a fungus contains protective agents. 3. The method according to claim 2, characterized in that the surfactant is core soap or 7-C ₁₀ -C ₁₆ alkyl-3,7-diazaheptanoic acid. 4. The method according to any one of claims 1 to 3, characterized in that the building materials are insulating materials made of cellulose fibers. 5. The method according to any one of claims 1 to 4, characterized in that the building materials shives of hemp, miscanthus, flax, jute and Ramie are. 6. Use of sodium and potassium carbonate for flame retardant equipment Production of building materials from renewable raw materials.   7. Use of an aqueous impregnation solution containing 5 to 20 % By weight sodium and / or potassium carbonate as flame retardant for Flame retardant finishing of building materials from renewable raw materials. 8. Use of an aqueous impregnation liquor as claimed in claim 7 is defined, the additional 2 to 10 wt .-% of a surfactant as a fungus contains protective agents for the flame and fungus protection of building materials fen from renewable raw materials. 9. Flame retardant insulation made from cellulose fibers, containing 2 up to 10% by weight sodium and / or potassium carbonate as flame retardant medium. 10. Flame retardant insulation made of cellulose fibers according to claim 9, the additional 0.5 to 3 wt .-% of a surfactant as an anti-fungal agent contain.